Three-dimensional limiting type dried bean pod shelling device
Technical Field
The invention relates to the field of soybean baking, in particular to a three-way limiting type dry bean pod shelling device.
Background
The soybean is an annual herb of genus Glycine of family Leguminosae and has a height of 30-90 cm. The stem is thick, upright and densely covered by brown long bristles.
At present, soybean toasts the direct soybean body of toasting among the prior art, lead to excessively toasting very easily, the soybean loses moisture seriously, makes the shrivelled atrophy of soybean itself, takes a new-type bean pod baking method now, the moisture loss of the soybean that can significantly reduce makes the baking process become simply easy to control, but the bean pod also can take place dehydration atrophy embrittlement in carrying out the baking process, lead to traditional extrusion formula hulling method no longer being suitable for, the phenomenon of crushing with the soybean extrusion very easily appears, lead to soybean output to reduce.
To the above problems, we provide a three-way limiting type dried bean pod shelling device.
Disclosure of Invention
In order to overcome the defects that the soybean body is directly roasted by roasting the soybeans in the prior art, excessive roasting is very easy to cause, the soybeans lose moisture seriously, and the soybeans are shriveled and withered, a novel roasting method with bean pods is adopted at present, the moisture loss of the soybeans can be greatly reduced, the roasting process is simple and easy to control, but the bean pods are also dehydrated, withered and embrittled in the roasting process, so that the traditional extrusion type hulling and husking method is not applicable any more, the phenomenon of crushing the soybeans is very easy to occur, and the yield of the soybeans is reduced, the soybean pod shelling and hulling method has the technical problems that: provides a three-dimensional limiting type dried bean pod shelling device.
The technical implementation scheme of the invention is as follows: a three-way limiting type dried bean pod shelling device comprises:
a work machine base plate;
the lower part of the mounting platform is connected with a bottom plate of the working machine through bolts;
the lower part of the soybean baking discharging machine is connected with the mounting table through a bolt;
the lower part of the multi-foot supporting frame is welded with the bottom plate of the working machine;
the conveying belt is connected with the multi-pin supporting frame;
the direction-adjusting carding system is connected with the multi-leg supporting frame below the direction-adjusting carding system;
the limiting pod breaking system is connected with the direction-adjusting carding system, and the lower part of the limiting pod breaking system is connected with the multi-leg support frame;
the pod separation system is connected with the multi-legged support frame, the lower part of the pod separation system is connected with the bottom plate of the working machine, and the pod separation system is connected with the direction-adjusting carding system;
the direction-adjusting carding system comprises:
the lower part of the first striker plate is connected with the multi-foot supporting frame;
the anti-stacking clamping plate is welded with the first material blocking plate;
the lower part of the first limiting sliding frame is in bolted connection with the first striker plate;
the lower part of the first bearing seat is welded with the first limiting sliding frame;
the first rotating disc is rotatably connected with the first bearing seat;
the first driving wheel is fixedly connected with the first rotating disc in the axis direction, connected with the limiting pod breaking system and connected with the pod separation system;
the first linkage convex column is fixedly connected with the first rotating disc;
the inner side of the first linkage frame rod is in transmission connection with the first linkage convex column;
the connecting column is fixedly connected with the first linkage frame rod;
the first linking slide rod is fixedly connected with the connecting column, and the outer surface of the first linking slide rod is in sliding connection with the first limiting slide frame;
the integrated connecting frame is fixedly connected with the first connecting slide rod;
the upper part of the deflector rod is welded with the collection connecting frame;
the first limiting and adjusting side plate is connected with the multi-pin supporting frame and the first stopping plate;
spacing broken pod system including:
the lower part of the mounting side frame plate is connected with the multi-foot supporting frame;
the lower part of the top bearing plate is fixedly connected with the mounting side frame plate;
the electric push plate is connected with the top bearing plate through a bolt;
the first clamping plate is connected with the top bearing plate in a sliding manner;
the second clamping plate is in sliding connection with the top bearing plate;
the first linkage rod is rotatably connected with the first clamping plate;
the first linkage sliding column is rotatably connected with the first linkage rod;
the second linkage rod is rotationally connected with the second clamping plate and is rotationally connected with the first linkage sliding column;
the linkage groove strip is fixedly connected with the first linkage sliding column;
the inner side of the limiting sliding perforated plate is in sliding connection with the first linkage sliding column;
the outer surface of the second linkage convex column is in transmission connection with the linkage groove strip;
the third linkage rod is fixedly connected with the second linkage convex column;
the first rotating shaft rod is fixedly connected with the third linkage rod;
the first bearing frame plate is rotationally connected with the first rotating shaft rod;
the upper part of the first gathering plate is connected with the first bearing frame plate through bolts, the upper part of the first gathering plate is connected with the limiting sliding perforated plate through bolts, and the lower part of the first gathering plate is connected with the multi-pin supporting frame;
the axis of the first bevel gear is fixedly connected with the first rotating shaft rod;
the second bevel gear is meshed with the first bevel gear;
and the second driving wheel is fixedly connected with the second bevel gear in the axis direction, is rotatably connected with the first gathering plate, and is in transmission connection with the first driving wheel through a belt.
More preferably, the pod separation system includes:
the motor seat plate is connected with the multi-pin support frame through bolts;
the lower part of the power motor is connected with the motor seat plate through a bolt;
the axis of the third driving wheel is fixedly connected with an output shaft of the power motor, and the outer ring surface of the third driving wheel is in transmission connection with the first driving wheel through a belt;
the outer ring surface of the fourth driving wheel is in transmission connection with the third driving wheel through a belt;
the axis of the third bevel gear is fixedly connected with the fourth driving wheel;
the second bearing frame plate is in rotating connection with the third bevel gear;
the fourth bevel gear is meshed with the third bevel gear;
the second rotating shaft rod is fixedly connected with the fourth bevel gear;
the third bearing frame plate is in bolted connection with the second bearing frame plate, is in rotating connection with the second rotating shaft rod, and is connected with the bottom plate of the working machine below the third bearing frame plate;
the cam shaft center is fixedly connected with the second rotating shaft rod;
the poking control rod is in transmission connection with the cam;
the shaking connecting rod is fixedly connected with the stirring control rod;
the limiting sliding column is in sliding connection with the shaking connecting rod;
the elastic spring rod is connected with the shaking connecting rod;
the lower part of the fixed seat is connected with the bottom plate of the working machine, the fixed seat is fixedly connected with the limiting sliding column, and the fixed seat is connected with the elastic spring rod;
the lower part of the collecting cabin is connected with the bottom plate of the working machine in a sliding manner, and the collecting cabin is connected with the shaking connecting rod;
the first separation channel plate is connected with the collection cabin;
the second limit adjusting side plate is welded with the first separation channel plate;
the second separation channel plate is connected with the collection cabin;
and the third limiting adjustment side plate is welded with the second separation channel plate.
More preferably, the bottom of the rear end of the first clamping plate and the bottom of the front end of the second clamping plate are respectively provided with a lath with a V-shaped groove.
More preferably, the bottom of the electric push plate is provided with an inverted V-shaped groove.
Compared with the prior art, the invention has the following advantages: (1) in order to solve the problems that the soybean baking in the prior art directly bakes the soybean body, so that the excessive baking is very easy to cause, the moisture of the soybean is seriously lost, and the soybean is shriveled and shriveled, the novel baking method with bean pods is adopted, the moisture loss of the soybean can be greatly reduced, the baking process is simple and easy to control, but the dehydration, shrinkage and embrittlement of the bean pods can also occur in the baking process, so that the traditional extrusion type pod removal and shelling method is not applicable any more, the phenomenon of crushing the soybean is very easy to occur, and the yield of the soybean is reduced;
(2) the method comprises the following steps that a direction-adjusting carding system, a limiting pod-breaking system and a pod-separating system are designed, when the direction-adjusting carding system is used, a disordered soybean pile is carded and tidily arranged, the direction of the disordered soybean pile is left and right, then the conveying belt drives soybeans to move to the position below the limiting pod-breaking system, the limiting pod-breaking system conducts limiting shelling on the soybeans, and finally the conveying belt drives the shelled soybeans and pods to enter the pod-separating system, so that part of the soybeans adhered to pods are completely separated from the pods;
(3) realized through the spacing arrangement normal position to scattering indiscriminate dry pod of plate, then it is spacing to utilize the grooved board of taking V-arrangement to carry out the three-dimensional to dry pod, prevents to take place the phenomenon appearance that pod skew leads to broken pod failure or even crushing inside beans breaking the in-process of opening the pod, has improved the effect of the integrality of pod-removing efficiency and beans.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic view of the present invention of a direction-modulated carding system;
FIG. 3 is a schematic structural view of a spacing pod-breaking system of the present invention;
FIG. 4 is a schematic view of a pod separation system of the present invention;
FIG. 5 is a perspective view of the assembly frame and the shift lever of the present invention;
FIG. 6 is a top view of a first striker plate and a first limit adjustment side plate of the present invention;
fig. 7 is a schematic perspective view of a portion of the electric push plate according to the present invention.
Wherein the figures include the following reference numerals: 1. a working machine bottom plate, 2, a mounting table, 3, a soybean baking and discharging machine, 4, a multi-pin support frame, 5, a conveyor belt, 6, a direction-adjusting carding system, 7, a limiting pod breaking system, 8, a pod separating system, 601, a first material baffle plate, 602, an anti-stacking clamping plate, 603, a first limiting sliding frame, 604, a first bearing seat, 605, a first rotating disc, 606, a first driving wheel, 607, a first linkage convex column, 608, a first linkage frame rod, 609, a connecting column, 6010, a first linking sliding rod, 6011, an integrated connecting frame, 6012, a deflector rod, 6013, a first limiting adjusting side plate, 701, a mounting side frame plate, 702, a top bearing plate, 703, an electric push plate, 704, a first clamping plate, 705, a second clamping plate, 706, a first linking rod, 707, a first linkage sliding column, 708, a second linking rod, 709, a linking groove strip, 7010, a limiting sliding perforated plate, 7011, a second linkage convex column, 7012. a third linkage rod 7013, a first rotating shaft rod 7014, a first bearing frame plate 7015, a first gathering plate 7016, a first bevel gear 7017, a second bevel gear 7018, a second driving wheel 801, a motor seat plate 802, a power motor 803, a third driving wheel 804, a fourth driving wheel 805, a third bevel gear 806, a second bearing frame plate 807, a fourth bevel gear 808, a second rotating shaft rod 809, a third bearing frame plate 8010, a cam 8011, a toggle control rod 8012, a rocking joint rod 8013, a limiting sliding column 8014, an elastic spring rod 8015, a fixed seat 8016, a collecting cabin 8017, a first separating channel plate 8018, a second limiting adjusting side plate 8019, a second separating channel plate 8020 and a third limiting adjusting side plate.
Detailed Description
It is to be noted that, in the case of the different described embodiments, identical components are provided with the same reference numerals or the same component names, wherein the disclosure contained in the entire description can be transferred to identical components having the same reference numerals or the same component names in a meaningful manner. The positional references selected in the description, such as upper, lower, lateral, etc., refer also to the directly described and illustrated figures and are to be read into the new position in the sense of a change in position.
Example 1
A three-way limiting type dried bean pod hulling device is shown in figures 1-7 and comprises a working machine bottom plate 1, a mounting table 2, a soybean baking and discharging machine 3, a multi-leg supporting frame 4, a conveying belt 5, a direction-adjusting carding system 6, a limiting pod breaking system 7 and a pod separating system 8; the lower part of the mounting platform 2 is connected with the bottom plate 1 of the working machine through bolts; the lower part of the soybean baking discharging machine 3 is connected with the mounting table 2 through bolts; the lower part of the multi-foot supporting frame 4 is welded with the bottom plate 1 of the working machine; the conveyor belt 5 is connected with the multi-pin support frame 4; the lower part of the direction-adjusting carding system 6 is connected with a multi-leg supporting frame 4; the limiting pod breaking system 7 is connected with the direction-adjusting carding system 6, and the lower part of the limiting pod breaking system 7 is connected with the multi-leg support frame 4; pod bean separation system 8 is connected with polypod support frame 4, and pod bean separation system 8 below is connected with workstation bottom plate 1, and pod bean separation system 8 is connected with direction-adjusting carding system 6.
When the three-way limiting type dry bean pod shelling device is used, firstly, the device is stably fixed to a working plane, then, a power supply is connected externally, a controller is connected externally, firstly, unhulled soybeans are added into a soybean baking discharging machine 3 for full baking, after baking is finished, the soybean baking discharging machine 3 is controlled to be opened to pour the soybeans to a conveyor belt 5, then, the conveyor belt 5 drives the soybeans to move to a direction-adjusting carding system 6, namely, the direction-adjusting carding system 6 combs disordered soybean piles in order to enable the disordered soybean piles to be in left and right directions, then, the conveyor belt 5 drives the soybeans to move to the position below a limiting pod breaking system 7, the limiting pod breaking system 7 carries out limiting shelling on the soybeans, finally, the conveyor belt 5 drives the shelled soybeans and pods to enter a pod separating system 8, so that the soybeans partially adhered to the pods are completely separated from the pods, and the normal position of the scattered dry bean pods is realized through plate limiting and sorting, then, the plate with the V-shaped grooves is utilized to carry out three-dimensional limitation on the dry bean pods, the phenomenon that the pod is deviated to cause pod breaking failure or even crush internal beans in the pod breaking process is prevented, and the pod breaking efficiency and the bean integrity effect are improved.
The direction-adjusting carding system 6 comprises a first striker plate 601, an anti-stacking snap-gauge 602, a first limiting sliding frame 603, a first bearing seat 604, a first rotating disc 605, a first driving wheel 606, a first linkage convex column 607, a first linkage frame rod 608, a connecting column 609, a first linking sliding rod 6010, an aggregate connecting frame 6011, a driving rod 6012 and a first limiting adjusting side plate 6013; the lower part of the first striker plate 601 is connected with the multi-foot support frame 4; the anti-stacking clamping plate 602 is welded with the first material baffle 601; the lower part of the first limiting sliding frame 603 is connected with a first material baffle plate 601 through bolts; the lower part of the first bearing seat 604 is welded with the first limiting sliding frame 603; the first rotary disk 605 is rotatably connected with the first bearing seat 604; the axle center of the first driving wheel 606 is fixedly connected with the first rotating disc 605, the first driving wheel 606 is connected with the limiting pod breaking system 7, and the first driving wheel 606 is connected with the pod separating system 8; the first linkage convex column 607 is fixedly connected with the first rotating disc 605; the inner side of the first linking frame rod 608 is in transmission connection with the first linking convex column 607; the connecting column 609 is fixedly connected with the first linkage frame rod 608; the first connecting slide bar 6010 is fixedly connected with the connecting column 609, and the outer surface of the first connecting slide bar 6010 is in sliding connection with the first limiting slide frame 603; the collective connecting frame 6011 is fixedly connected with a first connecting slide bar 6010; the upper part of the shift rod 6012 is welded with the collection connecting frame 6011; the first limit adjusting side plate 6013 is connected with the multi-legged support frame 4, and the first limit adjusting side plate 6013 is connected with the first striker plate 601.
Firstly, the conveyor belt 5 drives the unhulled soybeans to move rightwards, then, firstly, the unhulled soybeans pass through a first limit adjusting side plate 6013, the first limit adjusting side plates 6013 are divided into a front group and a rear group, the distance between the front group and the rear group is the width of a pod, namely, the gap between the first limit adjusting side plates 6013 is limited, when the unhulled soybeans pass through the two first limit adjusting side plates 6013, the unhulled soybeans are swung to the left and right, then the pod moves to the left side of the anti-stacking clamping plate 602, the distance between the bottom of the anti-stacking clamping plate 602 and the conveyor belt 5 is the thickness of the pod, when the stacked soybeans pass through the anti-stacking clamping plate 602, the upper stacked part is intercepted, further, single pod is conveyed rightwards once, meanwhile, the third driving wheel 803 drives the first driving wheel 606 to rotate, further the first driving wheel 606 drives the first rotating disc 605 to rotate, then the first rotating disc 605 drives the first linkage convex column 607 to rotate, namely, the first linking convex column 607 drives the first linking frame rod 608 to reciprocate left and right, namely, the first linking frame rod 608 drives the first linking slide rod 6010 to reciprocate left and right inside the first limiting slide frame 603 through the connecting column 609, and then the first linking slide rod 6010 drives the collective connecting frame 6011 and the shift rod 6012 to reciprocate left and right, namely, the shift rod 6012 combs unhulled soybeans conveyed to the right through the conveyor belt 5, and the direction adjustment and combing of the soybeans are completed.
The limiting pod breaking system 7 comprises a mounting side frame plate 701, a top bearing plate 702, an electric push plate 703, a first clamping plate 704, a second clamping plate 705, a first linkage rod 706, a first linkage sliding column 707, a second linkage rod 708, a linkage groove strip 709, a limiting sliding perforated plate 7010, a second linkage convex column 7011, a third linkage rod 7012, a first rotating shaft rod 7013, a first bearing frame plate 7014, a first gathering plate 7015, a first bevel gear 7016, a second bevel gear 7017 and a second driving wheel 7018; the lower part of the mounting side frame plate 701 is connected with a multi-foot support frame 4; the lower part of the top bearing plate 702 is fixedly connected with the mounting side frame plate 701; the electric push plate 703 is bolted to the top carrier plate 702; the first clamping plate 704 is slidably connected to the top carrier plate 702; the second clamping plate 705 is slidably connected to the top carrier plate 702; a first linkage rod 706 is in rotational connection with the first clamping plate 704; the first linkage sliding column 707 is in rotary connection with the first linkage rod 706; the second linkage rod 708 is rotatably connected with the second clamping plate 705, and the second linkage rod 708 is rotatably connected with the first linkage sliding column 707; the linkage groove 709 is fixedly connected with a first linkage sliding column 707; the inner side of the limiting sliding perforated plate 7010 is in sliding connection with the first linkage sliding column 707; the outer surface of the second linkage convex column 7011 is in transmission connection with the linkage groove 709; the third linkage 7012 is fixedly connected with the second linkage convex column 7011; the first rotating shaft bar 7013 is fixedly connected with the third linkage 7012; the first bearing bracket plate 7014 is rotationally connected with the first rotating shaft 7013; the upper part of the first assembly plate 7015 is connected with a first bearing frame plate 7014 through bolts, the upper part of the first assembly plate 7015 is connected with a limiting sliding perforated plate 7010 through bolts, and the lower part of the first assembly plate 7015 is connected with a multi-pin supporting frame 4; the axis of the first bevel gear 7016 is fixedly connected with the first rotating shaft 7013; the second bevel gear 7017 meshes with the first bevel gear 7016; the axle center of the second driving wheel 7018 is fixedly connected with the second bevel gear 7017, the second driving wheel 7018 is rotatably connected with the first gathering plate 7015, and the outer annular surface of the second driving wheel 7018 is in transmission connection with the first driving wheel 606 through a belt.
At this time, the conveyor belt 5 conveys the unshelled soybeans to the right to drive the unshelled soybeans to move to the inner side of the mounting side frame plate 701, meanwhile, the first driving wheel 606 drives the second driving wheel 7018 to rotate, then the second driving wheel 7018 drives the second bevel gear 7017 to rotate, further the second bevel gear 7017 drives the first bevel gear 7016 to rotate, then the first bevel gear 7016 drives the first rotating shaft 7013 to rotate, the first rotating shaft 7013 drives the third linkage rod 7012 to rotate, the third linkage rod 7012 drives the second linkage convex column 7011 to rotate, further the second linkage convex column 7011 slides in the inner side of the linkage groove 709 and drives the linkage groove 709 to reciprocate up and down, further the linkage groove 709 drives the first linkage sliding column 707 to reciprocate up and down in the inner side of the limiting sliding opening plate 7010, further the first linkage sliding column 707 drives the first linkage rod 706 and the second linkage rod 708 to move up and down, and then the first linkage rod 706 and the second linkage rod 708 respectively drive the first clamping plate 704 and the second clamping plate 705 to slide on the surface of the top bearing plate 702, the conveyor belt 5 is controlled to stop moving after the soybeans are driven by the conveyor belt 5 to move below the electric push plate 703, then the electric push plate 703 is controlled to push downwards to press the tops of the soybeans, meanwhile, the first clamping plate 704 and the second clamping plate 705 slide on the surface of the top bearing plate 702, namely, the first clamping plate 704 slides backwards, and simultaneously, the second clamping plate 705 slides forwards, namely, the first clamping plate 704 and the second clamping plate 705 approach each other to clamp the front side and the rear side of the soybeans, and then, the roasted soybean pods are crisp and are cracked and separated from the soybeans.
The pod bean separating system 8 comprises a motor seat plate 801, a power motor 802, a third driving wheel 803, a fourth driving wheel 804, a third bevel gear 805, a second bearing frame plate 806, a fourth bevel gear 807, a second rotating shaft rod 808, a third bearing frame plate 809, a cam 8010, a toggle control rod 8011, a rocking link rod 8012, a limiting sliding column 8013, an elastic spring rod 8014, a fixed seat 8015, a collecting cabin 8016, a first separating channel plate 8017, a second limiting adjusting side plate 8018, a second separating channel plate 8019 and a third limiting adjusting side plate 8020; the motor base plate 801 is connected with the multi-pin support frame 4 through bolts; the lower part of the power motor 802 is connected with a motor seat plate 801 by bolts; the axle center of the third driving wheel 803 is fixedly connected with the output shaft of the power motor 802, and the outer annular surface of the third driving wheel 803 is in transmission connection with the first driving wheel 606 through a belt; the outer annular surface of the fourth driving wheel 804 is in transmission connection with the third driving wheel 803 through a belt; the axis of the third bevel gear 805 is fixedly connected with the fourth driving wheel 804; second bearing frame plate 806 is rotatably connected to third bevel gear 805; fourth bevel gear 807 meshes with third bevel gear 805; the second rotating shaft rod 808 is fixedly connected with the fourth bevel gear 807; the third bearing frame plate 809 is in bolted connection with the second bearing frame plate 806, the third bearing frame plate 809 is in rotating connection with the second rotating shaft rod 808, and the lower part of the third bearing frame plate 809 is connected with the bottom plate 1 of the working machine; the axle center of the cam 8010 is fixedly connected with the second rotating shaft lever 808; the toggle control rod 8011 is in transmission connection with the cam 8010; the rocking connecting rod 8012 is fixedly connected with the toggle control rod 8011; the limiting sliding column 8013 is in sliding connection with the shaking connecting rod 8012; the elastic spring rod 8014 is connected with the rocking connecting rod 8012; the lower part of the fixed seat 8015 is connected with the bottom plate 1 of the working machine, the fixed seat 8015 is fixedly connected with the limiting sliding column 8013, and the fixed seat 8015 is connected with the elastic spring rod 8014; the lower part of the collecting chamber 8016 is connected with the bottom plate 1 of the working machine in a sliding way, and the collecting chamber 8016 is connected with a shaking connecting rod 8012; the first separation channel plate 8017 is connected to the collection chamber 8016; the second limiting adjustment side plate 8018 is welded to the first separation channel plate 8017; the second separation channel plate 8019 is connected to the collection chamber 8016; the third limit adjustment side plate 8020 is welded to the second separation channel plate 8019.
After the soybeans are broken, the control conveyor belt 5 continues to convey rightwards to drive the soybeans and broken pods to enter the collection chamber 8016, meanwhile, the power motor 802 drives the third driving wheel 803 to rotate, the third driving wheel 803 drives the fourth driving wheel 804 to rotate through a belt, then the fourth driving wheel 804 drives the third bevel gear 805 to rotate, the third bevel gear 805 drives the fourth bevel gear 807 to rotate, namely, the fourth bevel gear 807 drives the second rotating shaft 808 to rotate, then the second rotating shaft 808 drives the cam 8010 to rotate, namely, the cam 8010 rotates to drive the toggle control rod 8011 to move backwards, the toggle control rod 8011 drives the shaking connecting rod 8012 to slide backwards on the surface of the limiting sliding column 8013, then the elastic force of the elastic spring rod 8014 can drive the shaking connecting rod 8012 to slide forwards on the surface of the limiting sliding column 8013, and further realize the back-and-forth reciprocating motion of the shaking connecting rod 8012, the connecting rod 8012 is shaken to drive the collecting chamber 8016 to slide forwards and backwards above the bottom plate 1 of the working machine, soybeans and broken pods enter the collecting chamber 8016 and sequentially fall above the first separating channel plate 8017 and the second separating channel plate 8019, meanwhile, the soybeans and the broken pods are limited by the second limiting adjusting side plate 8018 and the third limiting adjusting side plate 8020, the collecting chamber 8016 continuously performs reciprocating motion forwards and backwards in the process, the collecting chamber 8016 drives the first separating channel plate 8017, the second limiting adjusting side plate 8018, the second separating channel plate 8019 and the third limiting adjusting side plate 8020 to shake forwards and backwards, and the adhered pods and soybeans are driven to further vibrate and separate.
The bottom of the rear end of the first clamping plate 704 and the bottom of the front end of the second clamping plate 705 are respectively provided with a lath with a V-shaped slot.
So that the two laths with the V-shaped slots are matched with the shapes of the oblate pods through the slots after the first clamping plate 704 and the second clamping plate 705 approach each other, stable clamping is formed, and the situation that the pod side edges tilt upwards and cannot be broken in the extrusion process is avoided.
The bottom of the electric push plate 703 is provided with an inverted V-shaped slot.
So that the bottom of the electric push plate 703 accommodates beans by utilizing the vacancy at the center of the groove, and the plate sides at the two sides can limit the left side and the right side of the bean pod simultaneously to prevent the single side of the bean pod from tilting.
It should be understood that the above description is for exemplary purposes only and is not meant to limit the present invention. Those skilled in the art will appreciate that variations of the present invention are intended to be included within the scope of the claims herein.